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Accelerating the pace of discovery by changing the peer review algorithm
- Publication Year :
- 2009
-
Abstract
- The number of scientific publications is constantly rising, increasing the strain on the review process. The number of submissions is actually higher, as each manuscript is often reviewed several times before publication. To face the deluge of submissions, top journals reject a considerable fraction of manuscripts without review, potentially declining manuscripts with merit. The situation is frustrating for authors, reviewers and editors alike. Recently, several editors wrote about the ``tragedy of the reviewer commons', advocating for urgent corrections to the system. Almost every scientist has ideas on how to improve the system, but it is very difficult, if not impossible, to perform experiments to test which measures would be most effective. Surprisingly, relatively few attempts have been made to model peer review. Here I implement a simulation framework in which ideas on peer review can be quantitatively tested. I incorporate authors, reviewers, manuscripts and journals into an agent-based model and a peer review system emerges from their interactions. As a proof-of-concept, I contrast an implementation of the current system, in which authors decide the journal for their submissions, with a system in which journals bid on manuscripts for publication. I show that, all other things being equal, this latter system solves most of the problems currently associated with the peer review process. Manuscripts' evaluation is faster, authors publish more and in better journals, and reviewers' effort is optimally utilized. However, more work is required from editors. This modeling framework can be used to test other solutions for peer review, leading the way for an improvement of how science is disseminated.<br />Comment: 9 pages 2 figures
Details
- Database :
- arXiv
- Publication Type :
- Report
- Accession number :
- edsarx.0911.0344
- Document Type :
- Working Paper